DE102009026541B4 - Curbing Roller - Google Patents

Abstract

Border roller (1) with a wheel (50) and with a drive shaft (10) which has an external thermal insulation, characterized in that the thermal insulation of the drive shaft (10) is a self-supporting insulation tube (30) made of a heat-insulating material and that the self-supporting Isolation tube (30) and the drive shaft (10) are braced against each other.

Description

The invention relates to a Bortenroller according to the preamble of claim 1.

Bortenroller, which are also referred to as a Toproller, essentially have a resting on the edge of the glass ribbon wheel, which is connected to a drive shaft which is guided by an outer tube through the wall of the Floatbadvorrichtung to the outside, where the drive and holding device for the Bortenroller is located. Wheel, drive shaft and outer tube are usually cooled.

Such a Bortenroller is for example from the DE-AS 1 596 589 B known, this Bortenroller can also be cooled. In this case, the shaft has a central bore, centrally located in a tube for the supply of coolant. In another embodiment, the shaft is formed at its one end to a drum-like support disc for toothed discs. Here ends the tube lying centrally in the bore of the shaft for supplying the coolant in the region of the drum-shaped support disk.

From the US 3,709,673 A is known a top roller, whose drive shaft consists of two coaxially arranged steel tubes. Coolant is supplied through the inner tube, and this liquid is returned through the space between the inner tube and the outer tube. This drive shaft is arranged in a stationary tube which extends through the side wall of the Floatbadvorrichtung in the interior of the Floatbadgehäuses. This stationary tube also consists of an inner and an outer tube. In the inner tube is the drive shaft. Between the two tubes Finns are arranged, which are provided for the diversion of cooling liquid.

Although the known cooling of the Bortenroller is necessary because of the high temperature in Floatbadgehäuse, on the other hand, this cooling is also disadvantageous because it affects the atmosphere within the Floatbadgehäuses. The cooled area generated by the Bortenroller in the float bath atmosphere creates undesirable flows, not only in the atmosphere but also in the float bath itself. However, currents in the float bath must be avoided so that a uniform glass surface can be created.

Therefore, already made of ceramic fiber insulation. These insulating materials are not self-supporting because the load bearing capacity is ensured by the steel tubes used in the shaft. Such known insulations extend to the wheel of the Bortenrollers, so that an influence on the atmosphere is largely prevented.

From the JP 10-212128 A a Bortenroller is known, which is located in a housing, which has ceramic fibers as insulating material. The insulating material is disposed on the inner surface of a heat shield. When replacing the Bortenrollers this housing must be dismantled before.

The DE 10 2007 000 746 B3 discloses a bushing roller feedthrough apparatus and method of making sheet glass. The feedthrough device has at least one retaining element which can be inserted into the side wall in the float bath device, a tube intermediate piece fastened to the retaining element and a bellows arranged on the pipe intermediate piece, at the outer end of which a first bearing for the drive shaft is arranged. Between the holding element and the bellows, a second bearing for the drive shaft is arranged, wherein the second bearing is formed elastically.

It is an object of the invention to provide a Bortenroller that is as easy to handle with little impairment of Floatbadatmosphäre.

This object is achieved with a Bortenroller with a wheel and with a drive shaft having an external heat insulation, characterized in that the heat insulation of the drive shaft is a self-supporting insulation tube made of a thermally insulating material and that the self-supporting insulating tube and the drive shaft are braced against each other.

The equipment of the insulating material with a support function allows a lighter construction of the entire drive shaft. Since the drive shafts can have a length of up to 5 m, the Bortenroller hang very strong due to their large weight. The fact that the heat-insulating material is formed as a self-supporting tube, the weight of the Bortenrollers and in particular the weight of the drive shaft can be significantly reduced, so that not only the sagging of the Bollenrollers is prevented, but also the handling of the Bollenrollers, z. B. during assembly or replacement, is facilitated.

A mutual clamping of two tubes has the advantage that the wall thickness of the tubes can be significantly reduced, without a loss of capacity must be accepted.

Preferably, the self-supporting insulating tube consists of a ceramic material which is correspondingly temperature-resistant. In general, in a Floatbadgehäuse prevail temperatures of a few hundred degrees Celsius, so that the material used there must have a very good heat resistance. Mullite ceramics have proven particularly suitable for the self-supporting insulation tube.

The self-supporting insulating tube is preferably located with its end face against the inner wall of the wheel. The inner wall of the wheel faces the wall of the Floatbadgehäuses. The tube thus extends to the wheel of the belt roller, so that the heat insulation of the drive shaft is ensured even to the wheel.

Preferably, the self-supporting insulation tube is under compressive stress. This has the advantage that the self-supporting insulation tube, which preferably extends to the side wall of the wheel, does not have to be fastened there. The mere concern of the end face of the self-supporting insulation tube on the wheel is sufficient.

The drive shaft is preferably under tension in this embodiment.

During operation of the belt roller, the self-supporting insulation pipe is also rotated.

The drive shaft is preferably mounted sealingly and rotatably in a wall of the Floatbadgehäuses.

On the drive shaft, a bearing sleeve is preferably attached, which is mounted in a fixed in the wall of Floatbadgehäuses pivot bearing. Such a bearing point has the advantage that a seal against the outer space of the Floatbadgehäuses is achieved and thus no impairment of the Floatbadatmosphäre can occur from the outside. In addition, a largely low-friction mounting of the drive shaft is realized.

The self-supporting insulation tube is preferably located between the wheel and the bearing sleeve.

Preferably, the self-supporting insulating tube is supported via a pressure device on the bearing sleeve.

The pressure device may be a compression spring device.

In order to provide the largest possible attack surface, the self-supporting insulation tube is preferably provided at the end facing away from the wheel with an annular cap. The printing device can attack on this ring cap.

It is also possible that the self-supporting tube extends through the bearing assembly to the outside.

Preferably, the drive shaft has a hollow shaft.

The hollow shaft can be made of steel.

It is also preferable to manufacture the hollow shaft from a ceramic material. A mullite ceramic material is also preferred for the hollow shaft.

The hollow shaft may also consist of a fiber-reinforced ceramic material. The fiber-reinforced ceramic material has the advantage over the mullite ceramic material in that it has higher bending and tensile strength.

In the hollow shaft, a cooling tube may be arranged through which a cooling liquid is passed. Through the space between the cooling tube and the hollow shaft, this cooling liquid is returned. Although cooling fluid, especially water, is directed through both the wheel and the tubes, the atmosphere in the float bath housing is imperceptibly compromised. This is reflected, inter alia, in the fact that the cooling water, despite the high temperature in the float bath only has a warming of about 1-2 ° C.

The wheel may also consist of mullite ceramic, wherein the running wall of the wheel is preferably provided with a graphite shell.

The wheel may also be formed as a hollow body, so that cooling fluid can be supplied to the wheel. In this embodiment, it is preferable to arrange a partition wall in the wheel so as to evenly distribute the cooling liquid inside the wheel.

The self-supporting insulating tube is preferably arranged coaxially spaced from the drive shaft.

The rotary bearing preferably has a bearing bush which has a bearing collar at each of its two ends.

Exemplary embodiments of the invention are explained below with reference to the drawings.

Show it:

1 a section through a Bortenroller according to a first embodiment and

2 a section through a Bortenroller according to a second embodiment.

The Bortenroller 1 extends from the outside through an opening 3 in the wall 2 a Floatbadgehäuses not shown in the interior 8th the Floatbadgehäuses. The Bortenroller 1 has a drive shaft 10 on, which is connected outside the Floatbadgehäuses with a drive device, not shown.

At the front end, the drive shaft 10 a wheel 50 on, the two side walls, namely an outer wall 52 and an inner wall 54 as well as a running wall 56 having.

The drive shaft 10 includes in the embodiment shown here a hollow shaft 12 with the bike 50 screwed or welded. This hollow shaft 12 can be made of steel or mullite ceramics. In the interior 42 the hollow shaft 12 is coaxially arranged a cooling tube 14 by means of spacers 18a . 18b , coaxial in the interior 42 the hollow shaft 12 is fixed.

The cooling tube 14 extends into the interior 58 of the wheel 50 and has at its end a vertically arranged partition 15 on, so that through the interior 44 of the cooling tube 14 inflowing coolant within the wheel 50 is diverted and distributed. The flow direction of the cooling liquid is indicated by arrows. The spacer rings 18a . 18b , are with openings 19 provided to allow the return flow of the cooling liquid.

The drive shaft 10 is in the area of the wall 2 Floatbadgehäuses with a piece of pipe 16 provided on the outside of the hollow shaft 12 is welded. Furthermore, a bearing sleeve 20 on this pipe section 16 attached. By means of this bearing sleeve 20 is the drive shaft 10 in a pivot bearing 4 rotatably and sealingly mounted.

The pivot bearing 4 consists of a bearing bush 5 , which at their two ends each have a bearing collar 5a . 5b having. The camps 5a . 5b prevent a movement of the belt roller 1 in the axial direction. In addition, on the outer face 24 the bearing sleeve 20 an abutment ring 26 arranged.

In the interior 8th Floatbadgehäuses is located between the inner wall 54 of the wheel 50 and the inner face 22 the bearing sleeve 20 a self-supporting insulation pipe 30 , The self-supporting insulation pipe 30 lies with its end face on the inner wall 54 at.

At the opposite end is the self-supporting insulation pipe 30 from a ring cap 32 held a ring collar 34 has, so that the self-supporting insulation tube 30 is fixed in the radial direction.

Between the outer surface of the ring cap 32 and the inner face 22 the bearing sleeve 20 is a printing device in the form of a compression spring device 28 intended. Because the bearing sleeve 20 in the axial direction immovable in the side wall 2 the Floatbadgehäuses is arranged, by means of the compression spring means 28 on the self-supporting insulation pipe 30 a compressive stress is applied. At the same time by the compression spring device 28 also a tension on the drive shaft 10 exercised. The self-supporting insulation pipe 30 and the drive shaft 10 be braced against each other in this way, which has the advantage that the tubes 30 and 12 significantly lighter, that can be formed with a significantly lower wall thickness without the stability of the drive shaft suffers. It is thus a total of a much lighter weight design of the Bortenrollers 1 achieved than is the case in the prior art. At the same time, the self-supporting insulation pipe is used 30 , which consists of an insulating material such. B. Mullitkeramik, effective heat insulation over the entire located inside the Floatbadgehäuses length of the drive shaft 10 reached.

In the 2 a further embodiment is shown, which differs from the in 1 shown embodiment differs in that the drive shaft 10 only a hollow shaft 12 has, in which no cooling tube is arranged. Another difference is that the wheel 50 from a solid material z. B. a Mullitkeramik and the running wall 56 a graphite jacket 57 having.

The wheel 50 has a pipe socket 60 that goes into the self-supporting insulation pipe 30 extends and at the same time the drive shaft 12 receives. This is with a radially extending fastening bolt 62 in the pipe socket 60 attached.

The bearing of the drive shaft 10 and the bracing of the self-supporting of heat-insulating material, in particular of mullite ceramic self-supporting tube 30 corresponds to the in 1 shown embodiment.

The interior 42 the hollow shaft 12 is not rinsed with cooling liquid in this embodiment.

1 and 2 shows the annulus 40 between the self-supporting insulation pipe 30 and the hollow shaft 12 ,

According to a further embodiment, the self-supporting insulating tube 30 also through the side wall 2 of Floatbadgehäuses extend to the outside.

LIST OF REFERENCE NUMBERS

1

Curbing Roller

2

Wall of Floatbadgehäuses

3

opening

4

pivot bearing

5

bearing bush

5a

inner camp covenant

5b

outer warehouse

8th

Interior of the float bath housing

10

drive shaft

12

hollow shaft

14

cooling pipe

15

partition wall

16

pipe section

18a

spacer

18b

spacer

19

opening

20

bearing sleeve

22

inner face

24

outer face

26

Abutment ring

28

Compression spring means

30

insulating tube

32

ring cap

34

collar

40

annulus

42

Interior of the drive shaft

44

Interior of the cooling tube

50

wheel

52

outer wall

54

inner wall

56

overflow wall

57

graphite jacket

58

inner space

60

pipe socket

62

mounting bolts

Claims (24)

Bortenroller ( 1 ) with a wheel ( 50 ) and with a drive shaft ( 10 ), which has an external heat insulation, characterized in that the heat insulation of the drive shaft ( 10 ) a self-supporting insulation tube ( 30 ) is made of a heat-insulating material and that the self-supporting insulating pipe ( 30 ) and the drive shaft ( 10 ) are braced against each other. Border roller according to claim 1, characterized in that the self-supporting insulating tube ( 30 ) consists of a ceramic material. Border roller according to claim 2, characterized in that the self-supporting insulating tube ( 30 ) consists of mullite ceramics. Border roller according to one of claims 1 to 3, characterized in that the self-supporting insulating tube ( 30 ) with its end face on the inner wall ( 54 ) of the wheel ( 50 ) is present. Border roller according to one of claims 1 to 4, characterized in that the self-supporting insulating tube ( 30 ) is under compressive stress. Border roller according to one of claims 1 to 5, characterized in that the drive shaft ( 10 ) is under tension. Border roller according to one of claims 1 to 6, characterized in that the drive shaft ( 10 ) sealing and rotatable in a wall ( 2 ) of Floatbadgehäuses is stored. Border roller according to one of claims 1 to 7, characterized in that on the drive shaft ( 10 ) a bearing sleeve ( 20 ), which is in one in the Floatbadwand ( 2 ) fixed pivot bearing ( 4 ) is stored. Border roller according to one of claims 1 to 8, characterized in that the self-supporting insulating tube ( 30 ) between wheel ( 50 ) and bearing sleeve ( 20 ) is arranged. Border roller according to one of claims 8 or 9, characterized in that the self-supporting tube ( 30 ) via a pressure device on the bearing sleeve ( 20 ) is supported. Border roller according to claim 10, characterized in that the pressure device is a compression spring device ( 28 ). Border roller according to one of claims 1 to 11, characterized in that the self-supporting insulating pipe ( 30 ) on the wheel ( 50 ) end facing away from a ring cap ( 32 ) having. Border roller according to claim 12, characterized in that the pressure device on the ring cap ( 32 ) attacks. Border roller according to one of claims 1 to 13, characterized in that the drive shaft ( 10 ) a hollow shaft ( 12 ). Border roller according to one of claims 1 to 14, characterized in that the hollow shaft ( 12 ) consists of steel. Border roller according to one of claims 1 to 14, characterized in that the hollow shaft ( 12 ) consists of a ceramic material. Border roller according to claim 16, characterized in that the hollow shaft ( 12 ) consists of a mullite ceramic. Border roller according to claim 16, characterized in that the hollow shaft ( 12 ) consists of fiber-reinforced ceramic material. Border roller according to one of claims 14 to 18, characterized in that in the hollow shaft ( 12 ) a cooling tube ( 14 ) is arranged. Border roller according to one of claims 1 to 19, characterized in that the wheel ( 50 ) made of mullite ceramics, which is on its wall ( 56 ) with a graphite jacket ( 57 ) is provided. Border roller according to one of claims 1 to 20, characterized in that the wheel ( 50 ) is designed as a hollow body. Bortenroller according to claim to 21, characterized in that in the wheel ( 50 ) a partition wall ( 15 ) is arranged. Border roller according to one of claims 1 to 22, characterized in that the self-supporting insulating tube ( 30 ) spaced from the drive shaft ( 10 ) is arranged coaxially. Border roller according to one of claims 9 to 23, characterized in that the pivot bearing ( 4 ) a bearing bush ( 5 ), which at its two ends in each case a bearing collar 5a . 5b having.

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